Serosurvey of Chikungunya Virus in Old World Fruit Bats, Senegal, 2020–2022

We conducted a cross-sectional serosurvey for chikungunya virus (CHIKV) exposure in fruit bats in Senegal during 2020–2023. We found that 13.3% (89/671) of bats had CHIKV IgG; highest prevalence was in Eidolon helvum (18.3%, 15/82) and Epomophorus gambianus (13.7%, 63/461) bats. Our results suggest these bats are naturally exposed to CHIKV.

in a human-amplified urban cycle (2).The virus is also transmitted in ancestral African enzootic cycles involving several species of arboreal mosquito vectors that transmit among diverse, nonhuman primates and possibly other amplifying hosts (2,3).The role of Old World fruit bats (Pteropodidae) in CHIKV transmission in West Africa remains understudied.We investigated CHIKV exposure of these bats in the Kédougou region in Senegal, a CHIKV-enzootic region with a history of spillover epidemics but not human-amplified, Ae. aegypti-borne outbreaks (A.Padane et al., unpub.data).
During October 23, 2020-March 4, 2022, we collected blood samples from fruit bats in 5 locations in the Kédougou region of southeastern Senegal (Figure , panel A).All bats were identified by external morphology.We tested all serum samples (dilution 1:100) in duplicate by an in-house ELISA for detection of IgG against CHIKV by using a recombinant envelope 2 protein and an anti-bat secondary antibody.We defined the cutoff value for positive results as the mean of negative controls (uninfected mice) plus 3 SDs (Appendix, https:// wwwnc.cdc.gov/EID/article/30/7/24-0055-App1.pdf).All animals collected were adults and apparently healthy at the time of sampling.All procedures followed the approval of the National Ethical Committee for Research of Senegal and the University of Texas Medical Branch Institutional Animal Care and Use Committee.
We identified IgG specific for CHIKV in 5 species of fruit bats in several rural areas within the Kédougou region of southeastern Senegal before a 2023 outbreak (A.Padane et al., unpub.data).Bats are recognized to traverse wild, rural, and urban zones and possess favorable biologic features for hosting and amplifying several emerging viruses, including viral spread across large geographic areas linked to migration (4).CHIKV has been previously isolated from Scotophilus spp.bats in Senegal (5).Experimental infection of Eptesicus fuscus bats with CHIKV demonstrated persistent viremia, followed by neutralizing antibody production without apparent clinical signs (6), compatible features for enzootic amplifying and reservoir host status.Of note, other domestic and wild animals (e.g., birds and livestock) appear unlikely to amplify CHIKV effectively (6).One study revealed that 36% (15/42) of fruit bats captured near human settlements tested positive for CHIKV after an initial outbreak in Grenada Island (7) bats during human-amplified outbreaks.Another study found that 0.7% (2/303) of Rousettus aegyptiacus bats in Uganda have neutralizing antibodies against CHIKV (8).
Collectively, our findings suggest that E. gambianus, E. helvum, and M. pusillus bats are exposed to CHIKV infection in the enzootic cycle in West Africa.Limitations of our study include the absence of more specific neutralizing antibody tests in bat samples because of limited volumes of blood collected and the need for testing for antibodies against several other viruses.Thus, we recognize that some CHIKV-positive samples could have resulted from cross-reactions with other alphaviruses circulating in the region, particularly o'nyongnyong virus (Appendix) (9).Nonetheless, E. gambianus bats, unlike highly migratory E. helvum bats, are rarely observed to migrate or disperse long distances.This fact suggests that the high seropositivity we noted is unlikely due to cross-reaction with o'nyong-nyong virus, a virus rarely detected in West Africa.Limited blood sample volumes also prevented molecular testing (e.g., reverse transcription PCR) to identify active CHIKV infections.Future investigations should prioritize direct virus detection and isolation from bats.In addition, although our serologic data indicate past exposure, we could not ascertain the timing of CHIKV infection in the bats we studied.Re-capturing bats, particularly during interepidemic periods, would offer valuable insights into infection dynamics and reservoir potential.Finally, experimental infection of the high-seropositive bat species is needed to determine if they develop viremia of adequate magnitude to participate in mosquito transmission.In conclusion, our study strengthens evidence for natural CHIKV exposure in some Old World fruit bat species in West Africa.

About the Author
Dr. de Souza is an assistant professor at the University of Kentucky.His research is focused on transmission dynamics of emerging and reemerging RNA viruses and arboviruses.

Figure .
Figure.Serosurvey of CHIKV in the Kédougou region, Senegal.A) Location of Kédougou region (dark yellow) within Senegal (light yellow).B) Colored bars show the proportion of bats testing positive for CHIKV IgG at each capture site.Each color corresponds to a specific bat species, as indicated in the key above the graph.CHIKV, chikungunya virus.
W.M. de Souza was supported by a Global Virus Network fellowship, Burroughs Wellcome Fund (#1022448), and Wellcome Trust-Digital Technology Development award (Climate Sensitive Infectious Disease Modelling; 226075/Z/22/Z).S.C. Weaver was supported by National Institutes of Health grants AI12094, U01AI151801, and AI121452.